Antibacterial activity of synthetic precursors of podophyllotoxin.

Precursors of podophyllotoxin were synthesized and screened for their antibacterial activity. The results proved that ethyl-2-(3'-methyl-4'-methoxybenzoyl)-3-(4″ methoxyphenol)-cyclopropane-1-carboxylic acid and Ethyl-2-(3'-methyl-4'-methoxybenzyol-3-1 3″, 4″-dimethoxyphenyl)-cyclopropane-carboxylic acid have significant antibacterial activity against Citrobacter sp., Escherchia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, Salmonella typhi, Shigella sonnei and Streptococcus faecalis. The activity is lower than Ciprofloxacin and equal to Gentamicin and more than Penicillin and Streptomycin.


INtrODUctION
Podophyllotoxin ( Figure 1) and several of its analogs are being used as cytotoxic spindle poisons and antitumor agents at clinical levels (1,2). Recently Lee et al. (3) discovered that some modified derivatives of podophyllotoxin possess an anti HIV property. Most of these compounds contain a transfused highly stained g-lactone system (4), a feature that correlates with the smooth Isomerisation of podophyllotoxin to its thermodynamically stable epimer, picropodophyllin. The biological activity of cis analogous are very much low than that of the trans isomer (5). Literature survey on the structure and activity relationship among the podophyllin derivatives revealed efforts have not been made towards the study of the other biological activities in general and antibacterial activity in particular. Literature studies (6) also reveal that prythroid deriva-tives ( Figure 2) possessing cyclopropam ring system show strong insecticidal property.
These results prompted us to synthesize the molecules from cyclopropane ring system, which can serve as a synthetic precursor (Figure 3) for the synthesis of podophyllotoxin derivatives and evaluated their antibactericidal potential against some important human pathogenic bacteria.

Antibacterial assay
Preparation of nutrient broth. Nutrient broth was prepared by dissolving peptic digest of animal tissue (0.5%), yeast extract (0.15%) beef extract (0.15%) and sodium chloride (0.50%) in distilled water (100 ml). The pH of solution was adjusted to 7.4 by adding sodium hydroxide solution (4%) and the resulting solution was autoclaved for 20 minutes at 15 psi.
Preparation of sub cultures (Inoculums). One day prior to the experiment, the cultures of Citrobacter sp., Escherich-ia coli, Klebsiela sp., Pseudomonas aeruginosa, Salmonella typhi, Shigella sonnei, and Streptococcus faecalis was inoculated to nutrient broth and incubated over night at 37°C.
Preparation of Nutrient agar medium. Nutrient agar medium was prepared by dissolving peptic digest of animal tissue (0.5%), yeast extract (0.15%), beef meet extract (0.15%), sodium chloride (0.5%) in distilled water (100 ml). The pH of the solution was adjusted to 7.2 by adding 4% aqueous sodium hydroxide solution and agar (1.5%) was added and autoclaved for 20 minutes at 15 psi.
Preparation of test sample solution. Each test sample (5 mg) was dissolved in ethyl alcohol (5 ml) and 0.01 ml of this solution (10 mg) was used for testing.

Method of testing
Antibacterial activity was determined by cup diffusion method on nutrient agar medium. The sterile medium (20 ml) was poured into 9 cm petriplates. The medium was allowed to cool in a sterile condition and plates were then inoculated with 1 × 10 5 cfu cultures of tested bacteria. The concentration of bacterial cells in the suspension was adjusted to minimum of 1 × 10 5 cfu/ml in nutrient broth solution. By punching the agar container with sterile cork borer and scooping out the punched part agar cup of 5 mm diameter were made.
Test solution (0.01 ml) containing 10 mg of the test compounds were placed in each cup, ethyl alcohol (10 ml) served as control. The plates were left to stay for an hour in order to facilitate the diffusion of the drug solution. Then the plates were incubated at 37°C for 24 hours. The zones of inhibition if any against the test bacteria were measured in mm. Ciprofloxacin, Gentamicin, Penicillin G and Streptomycin were used for comparison.

Minimal Inhibitory concentration (MIc)
MIC was determined by broth dilution methods. For broth dilution tests, 0.1 ml of standardized suspension of test bacteria (10 5 CFU/ml) was added to each tube containing different concentrations of the podophyllotoxin derivatives and antibiotics (05-30 µl/ml) incubated for 24hours at 37°C. The lowest concentration of the tube that did not show any visible growth by macroscopic evaluation was considered as the MIC.

rEsULts
The antibacterial activity of all the synthetic derivatives and the antibiotics against all the test bacteria presented in Table 1.
The three derivatives namely 3a, 3d, 3e and antibiotic penicillin G did not reveal any antibacterial activity, whereas the other two derivates namely 3b and 3c recorded significant activity against all the test bacteria. Streptomycin was active only against E. coli and Klebsiella pneumoniae. Ciprofloxacin and Gentamicin were active against all the test bacteria.
Antibacterial activity was maximum against Shigella sonnei (13.33 mm) and was minimum against Streptococcus faecalis (9.83 mm) in 3b derivative. In case of 3c derivative the antibacterial activity was more against Klebsiella pneumoniae (12.16 mm) and less against E. coli (10.66 mm). Antibiotic Streptomycin recorded higher activity in comparison with the derivatives 3b and 3c against E. coli. Salmonella typhi (17.75 mm) was highly susceptible to Gentamicin followed by Shigella sonnei (15.25 mm) and Citrobacter sp. (12.68 mm). The zone of inhibition was higest in case of Pseduomonas aeruginosa (34.25 mm) against Ciprofloxacin followed by Shigella sonnei (21.75 mm) Salmonella typhi (20.25 mm) and Klebsiella pneumoniae (20.25 mm). Lowest inhibitory activity was also observed against E. coli and Streptococcus fecalis.
Minimal inhibitory concentration of all the five derivatives of Podophyllotoxin and antibiotics tested against the test bacteria are present in Table 2. It is observed that among the antibiotic tested Ciprofloxacin was highly active with low MIC of 10 µl against Citrobacter sp., Klebsiella pneumoniae, Shigella sonnei and Salmonella typhi. Gentamicin also recorded low MIC value of 10 µl against Salmonella typhi. Streptomycin active only against E. coli and Klebsiella pneumoniae where as penicillin was not active against all the test bacteria. Among the synthetic derivatives 3b and 3c were active against all the test bacteria with MIC ranging between 15 -25 µl where as 3a, 3d and 3e did not show any activity against all the test bacteria.

DIscUssION
Continuous and frequent use of antibiotics to mange human disease has caused by bacteria to acquire resistance against the commonly used therapeutic agents (9). Consequently the problem of microbial resistance is grow- ing and the need to search for alternative newer molecules is increasing. Hence there is a continuous need to evaluate for newer molecules that are antibacterialy active. Hence in the present study all the five new synthesized derivatives (3a-3e) of podophyllotoxin and their analogues are already in use as antitumor agent (1,2), and also known to posses anti HIV property (3). None of the evaluation had demonstrated the antibacterial potential of the five synthesized derivatives tested in the present investigation. The present investigation has demonstrated clearly the antibacterial potential of 3b and 3c derivatives for the first time also has demonstrated the inefficacy of 3a, 3d and 3e.